Light year is a measurement of
A. speed of aeroplanes
B. speed of light
C. stellar distances
D. speed of rockets
Answer
Verified453.9k+ views
Hint: Light year is a unit of distance. By the name itself, we can understand that the unit light year is related to light. The value of one light year is equal to the distance that light (in vacuum) covers in one year
Formula used:
$d=vt$
where d is the distance, v is speed and t is time.
Complete step by step answer:
Let us first understand what is meant by light year.Light year is a unit of distance. By the name itself, we can understand that the unit light year is related to light. The value of one light year is equal to the distance that light (in vacuum) covers in one year. It is based on the formula that distance is equal to the product of speed and time i.e. $d=vt$, where d is the distance, v is speed and t is time.
We know that the speed of light in vacuum is equal to $c=3\times {{10}^{8}}m{{s}^{-1}}$.
The time spent in a year is equal to $t=365\times 24\times 60\times 60=31536000s$
Therefore, the distance covered by light travelling vacuum in one year is equal to
$d=ct\\
\Rightarrow d=3\times {{10}^{8}}\times 31536000 \\
\Rightarrow d = 94608000\times {{10}^{8}}m$.
$\therefore d=94608\times {{10}^{11}}m$
This means that 1 light year is equal to $94608\times {{10}^{11}}$ metres.Suppose an object is at a distance of $94608\times {{10}^{11}}$ metres, then we can say that it is one light year away. Now, we know that the light year is a unit length and it is a measurement of distance. It is used in measuring the distance of celestial bodies.
Hence, the correct option is C.
Note: You may be thinking why we use a unit of such large magnitude. One light year is a very large distance and cannot be used for the date to date measurements (since the distance on earth is not so large).However, it is very useful in writing down the distances of faraway celestial bodies like stars and planets. The distances of these celestial bodies are so big that even light takes years to travel these distances. That is why we use a unit of larger magnitude so the numerical value of the measurement is small.
Formula used:
$d=vt$
where d is the distance, v is speed and t is time.
Complete step by step answer:
Let us first understand what is meant by light year.Light year is a unit of distance. By the name itself, we can understand that the unit light year is related to light. The value of one light year is equal to the distance that light (in vacuum) covers in one year. It is based on the formula that distance is equal to the product of speed and time i.e. $d=vt$, where d is the distance, v is speed and t is time.
We know that the speed of light in vacuum is equal to $c=3\times {{10}^{8}}m{{s}^{-1}}$.
The time spent in a year is equal to $t=365\times 24\times 60\times 60=31536000s$
Therefore, the distance covered by light travelling vacuum in one year is equal to
$d=ct\\
\Rightarrow d=3\times {{10}^{8}}\times 31536000 \\
\Rightarrow d = 94608000\times {{10}^{8}}m$.
$\therefore d=94608\times {{10}^{11}}m$
This means that 1 light year is equal to $94608\times {{10}^{11}}$ metres.Suppose an object is at a distance of $94608\times {{10}^{11}}$ metres, then we can say that it is one light year away. Now, we know that the light year is a unit length and it is a measurement of distance. It is used in measuring the distance of celestial bodies.
Hence, the correct option is C.
Note: You may be thinking why we use a unit of such large magnitude. One light year is a very large distance and cannot be used for the date to date measurements (since the distance on earth is not so large).However, it is very useful in writing down the distances of faraway celestial bodies like stars and planets. The distances of these celestial bodies are so big that even light takes years to travel these distances. That is why we use a unit of larger magnitude so the numerical value of the measurement is small.
Recently Updated Pages
Glucose when reduced with HI and red Phosphorus gives class 11 chemistry CBSE
The highest possible oxidation states of Uranium and class 11 chemistry CBSE
Find the value of x if the mode of the following data class 11 maths CBSE
Which of the following can be used in the Friedel Crafts class 11 chemistry CBSE
A sphere of mass 40 kg is attracted by a second sphere class 11 physics CBSE
Statement I Reactivity of aluminium decreases when class 11 chemistry CBSE
Trending doubts
10 examples of friction in our daily life
One Metric ton is equal to kg A 10000 B 1000 C 100 class 11 physics CBSE
Difference Between Prokaryotic Cells and Eukaryotic Cells
State and prove Bernoullis theorem class 11 physics CBSE
What organs are located on the left side of your body class 11 biology CBSE
How many valence electrons does nitrogen have class 11 chemistry CBSE